sc_network/config.rs
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// This file is part of Substrate.
// Copyright (C) Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: GPL-3.0-or-later WITH Classpath-exception-2.0
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <https://www.gnu.org/licenses/>.
//! Configuration of the networking layer.
//!
//! The [`Params`] struct is the struct that must be passed in order to initialize the networking.
//! See the documentation of [`Params`].
pub use crate::{
discovery::DEFAULT_KADEMLIA_REPLICATION_FACTOR,
peer_store::PeerStoreProvider,
protocol::{notification_service, NotificationsSink, ProtocolHandlePair},
request_responses::{
IncomingRequest, OutgoingResponse, ProtocolConfig as RequestResponseConfig,
},
service::{
metrics::NotificationMetrics,
traits::{NotificationConfig, NotificationService, PeerStore},
},
types::ProtocolName,
};
pub use sc_network_types::{build_multiaddr, ed25519};
use sc_network_types::{
multiaddr::{self, Multiaddr},
PeerId,
};
use crate::service::{ensure_addresses_consistent_with_transport, traits::NetworkBackend};
use codec::Encode;
use prometheus_endpoint::Registry;
use zeroize::Zeroize;
pub use sc_network_common::{
role::{Role, Roles},
sync::SyncMode,
ExHashT,
};
use sp_runtime::traits::Block as BlockT;
use std::{
error::Error,
fmt, fs,
future::Future,
io::{self, Write},
iter,
net::Ipv4Addr,
num::NonZeroUsize,
path::{Path, PathBuf},
pin::Pin,
str::{self, FromStr},
sync::Arc,
};
/// Protocol name prefix, transmitted on the wire for legacy protocol names.
/// I.e., `dot` in `/dot/sync/2`. Should be unique for each chain. Always UTF-8.
/// Deprecated in favour of genesis hash & fork ID based protocol names.
#[derive(Clone, PartialEq, Eq, Hash)]
pub struct ProtocolId(smallvec::SmallVec<[u8; 6]>);
impl<'a> From<&'a str> for ProtocolId {
fn from(bytes: &'a str) -> ProtocolId {
Self(bytes.as_bytes().into())
}
}
impl AsRef<str> for ProtocolId {
fn as_ref(&self) -> &str {
str::from_utf8(&self.0[..])
.expect("the only way to build a ProtocolId is through a UTF-8 String; qed")
}
}
impl fmt::Debug for ProtocolId {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Debug::fmt(self.as_ref(), f)
}
}
/// Parses a string address and splits it into Multiaddress and PeerId, if
/// valid.
///
/// # Example
///
/// ```
/// # use sc_network_types::{multiaddr::Multiaddr, PeerId};
/// use sc_network::config::parse_str_addr;
/// let (peer_id, addr) = parse_str_addr(
/// "/ip4/198.51.100.19/tcp/30333/p2p/QmSk5HQbn6LhUwDiNMseVUjuRYhEtYj4aUZ6WfWoGURpdV"
/// ).unwrap();
/// assert_eq!(peer_id, "QmSk5HQbn6LhUwDiNMseVUjuRYhEtYj4aUZ6WfWoGURpdV".parse::<PeerId>().unwrap().into());
/// assert_eq!(addr, "/ip4/198.51.100.19/tcp/30333".parse::<Multiaddr>().unwrap());
/// ```
pub fn parse_str_addr(addr_str: &str) -> Result<(PeerId, Multiaddr), ParseErr> {
let addr: Multiaddr = addr_str.parse()?;
parse_addr(addr)
}
/// Splits a Multiaddress into a Multiaddress and PeerId.
pub fn parse_addr(mut addr: Multiaddr) -> Result<(PeerId, Multiaddr), ParseErr> {
let multihash = match addr.pop() {
Some(multiaddr::Protocol::P2p(multihash)) => multihash,
_ => return Err(ParseErr::PeerIdMissing),
};
let peer_id = PeerId::from_multihash(multihash).map_err(|_| ParseErr::InvalidPeerId)?;
Ok((peer_id, addr))
}
/// Address of a node, including its identity.
///
/// This struct represents a decoded version of a multiaddress that ends with `/p2p/<peerid>`.
///
/// # Example
///
/// ```
/// # use sc_network_types::{multiaddr::Multiaddr, PeerId};
/// use sc_network::config::MultiaddrWithPeerId;
/// let addr: MultiaddrWithPeerId =
/// "/ip4/198.51.100.19/tcp/30333/p2p/QmSk5HQbn6LhUwDiNMseVUjuRYhEtYj4aUZ6WfWoGURpdV".parse().unwrap();
/// assert_eq!(addr.peer_id.to_base58(), "QmSk5HQbn6LhUwDiNMseVUjuRYhEtYj4aUZ6WfWoGURpdV");
/// assert_eq!(addr.multiaddr.to_string(), "/ip4/198.51.100.19/tcp/30333");
/// ```
#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, PartialEq)]
#[serde(try_from = "String", into = "String")]
pub struct MultiaddrWithPeerId {
/// Address of the node.
pub multiaddr: Multiaddr,
/// Its identity.
pub peer_id: PeerId,
}
impl MultiaddrWithPeerId {
/// Concatenates the multiaddress and peer ID into one multiaddress containing both.
pub fn concat(&self) -> Multiaddr {
let proto = multiaddr::Protocol::P2p(From::from(self.peer_id));
self.multiaddr.clone().with(proto)
}
}
impl fmt::Display for MultiaddrWithPeerId {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.concat(), f)
}
}
impl FromStr for MultiaddrWithPeerId {
type Err = ParseErr;
fn from_str(s: &str) -> Result<Self, Self::Err> {
let (peer_id, multiaddr) = parse_str_addr(s)?;
Ok(Self { peer_id, multiaddr })
}
}
impl From<MultiaddrWithPeerId> for String {
fn from(ma: MultiaddrWithPeerId) -> String {
format!("{}", ma)
}
}
impl TryFrom<String> for MultiaddrWithPeerId {
type Error = ParseErr;
fn try_from(string: String) -> Result<Self, Self::Error> {
string.parse()
}
}
/// Error that can be generated by `parse_str_addr`.
#[derive(Debug)]
pub enum ParseErr {
/// Error while parsing the multiaddress.
MultiaddrParse(multiaddr::ParseError),
/// Multihash of the peer ID is invalid.
InvalidPeerId,
/// The peer ID is missing from the address.
PeerIdMissing,
}
impl fmt::Display for ParseErr {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::MultiaddrParse(err) => write!(f, "{}", err),
Self::InvalidPeerId => write!(f, "Peer id at the end of the address is invalid"),
Self::PeerIdMissing => write!(f, "Peer id is missing from the address"),
}
}
}
impl std::error::Error for ParseErr {
fn source(&self) -> Option<&(dyn std::error::Error + 'static)> {
match self {
Self::MultiaddrParse(err) => Some(err),
Self::InvalidPeerId => None,
Self::PeerIdMissing => None,
}
}
}
impl From<multiaddr::ParseError> for ParseErr {
fn from(err: multiaddr::ParseError) -> ParseErr {
Self::MultiaddrParse(err)
}
}
/// Custom handshake for the notification protocol
#[derive(Debug, Clone)]
pub struct NotificationHandshake(Vec<u8>);
impl NotificationHandshake {
/// Create new `NotificationHandshake` from an object that implements `Encode`
pub fn new<H: Encode>(handshake: H) -> Self {
Self(handshake.encode())
}
/// Create new `NotificationHandshake` from raw bytes
pub fn from_bytes(bytes: Vec<u8>) -> Self {
Self(bytes)
}
}
impl std::ops::Deref for NotificationHandshake {
type Target = Vec<u8>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
/// Configuration for the transport layer.
#[derive(Clone, Debug)]
pub enum TransportConfig {
/// Normal transport mode.
Normal {
/// If true, the network will use mDNS to discover other libp2p nodes on the local network
/// and connect to them if they support the same chain.
enable_mdns: bool,
/// If true, allow connecting to private IPv4/IPv6 addresses (as defined in
/// [RFC1918](https://tools.ietf.org/html/rfc1918)). Irrelevant for addresses that have
/// been passed in `::sc_network::config::NetworkConfiguration::boot_nodes`.
allow_private_ip: bool,
},
/// Only allow connections within the same process.
/// Only addresses of the form `/memory/...` will be supported.
MemoryOnly,
}
/// The policy for connections to non-reserved peers.
#[derive(Clone, Debug, PartialEq, Eq)]
pub enum NonReservedPeerMode {
/// Accept them. This is the default.
Accept,
/// Deny them.
Deny,
}
impl NonReservedPeerMode {
/// Attempt to parse the peer mode from a string.
pub fn parse(s: &str) -> Option<Self> {
match s {
"accept" => Some(Self::Accept),
"deny" => Some(Self::Deny),
_ => None,
}
}
/// If we are in "reserved-only" peer mode.
pub fn is_reserved_only(&self) -> bool {
matches!(self, NonReservedPeerMode::Deny)
}
}
/// The configuration of a node's secret key, describing the type of key
/// and how it is obtained. A node's identity keypair is the result of
/// the evaluation of the node key configuration.
#[derive(Clone, Debug)]
pub enum NodeKeyConfig {
/// A Ed25519 secret key configuration.
Ed25519(Secret<ed25519::SecretKey>),
}
impl Default for NodeKeyConfig {
fn default() -> NodeKeyConfig {
Self::Ed25519(Secret::New)
}
}
/// The options for obtaining a Ed25519 secret key.
pub type Ed25519Secret = Secret<ed25519::SecretKey>;
/// The configuration options for obtaining a secret key `K`.
#[derive(Clone)]
pub enum Secret<K> {
/// Use the given secret key `K`.
Input(K),
/// Read the secret key from a file. If the file does not exist,
/// it is created with a newly generated secret key `K`. The format
/// of the file is determined by `K`:
///
/// * `ed25519::SecretKey`: An unencoded 32 bytes Ed25519 secret key.
File(PathBuf),
/// Always generate a new secret key `K`.
New,
}
impl<K> fmt::Debug for Secret<K> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
Self::Input(_) => f.debug_tuple("Secret::Input").finish(),
Self::File(path) => f.debug_tuple("Secret::File").field(path).finish(),
Self::New => f.debug_tuple("Secret::New").finish(),
}
}
}
impl NodeKeyConfig {
/// Evaluate a `NodeKeyConfig` to obtain an identity `Keypair`:
///
/// * If the secret is configured as input, the corresponding keypair is returned.
///
/// * If the secret is configured as a file, it is read from that file, if it exists. Otherwise
/// a new secret is generated and stored. In either case, the keypair obtained from the
/// secret is returned.
///
/// * If the secret is configured to be new, it is generated and the corresponding keypair is
/// returned.
pub fn into_keypair(self) -> io::Result<ed25519::Keypair> {
use NodeKeyConfig::*;
match self {
Ed25519(Secret::New) => Ok(ed25519::Keypair::generate()),
Ed25519(Secret::Input(k)) => Ok(ed25519::Keypair::from(k).into()),
Ed25519(Secret::File(f)) => get_secret(
f,
|mut b| match String::from_utf8(b.to_vec()).ok().and_then(|s| {
if s.len() == 64 {
array_bytes::hex2bytes(&s).ok()
} else {
None
}
}) {
Some(s) => ed25519::SecretKey::try_from_bytes(s),
_ => ed25519::SecretKey::try_from_bytes(&mut b),
},
ed25519::SecretKey::generate,
|b| b.as_ref().to_vec(),
)
.map(ed25519::Keypair::from),
}
}
}
/// Load a secret key from a file, if it exists, or generate a
/// new secret key and write it to that file. In either case,
/// the secret key is returned.
fn get_secret<P, F, G, E, W, K>(file: P, parse: F, generate: G, serialize: W) -> io::Result<K>
where
P: AsRef<Path>,
F: for<'r> FnOnce(&'r mut [u8]) -> Result<K, E>,
G: FnOnce() -> K,
E: Error + Send + Sync + 'static,
W: Fn(&K) -> Vec<u8>,
{
std::fs::read(&file)
.and_then(|mut sk_bytes| {
parse(&mut sk_bytes).map_err(|e| io::Error::new(io::ErrorKind::InvalidData, e))
})
.or_else(|e| {
if e.kind() == io::ErrorKind::NotFound {
file.as_ref().parent().map_or(Ok(()), fs::create_dir_all)?;
let sk = generate();
let mut sk_vec = serialize(&sk);
write_secret_file(file, &sk_vec)?;
sk_vec.zeroize();
Ok(sk)
} else {
Err(e)
}
})
}
/// Write secret bytes to a file.
fn write_secret_file<P>(path: P, sk_bytes: &[u8]) -> io::Result<()>
where
P: AsRef<Path>,
{
let mut file = open_secret_file(&path)?;
file.write_all(sk_bytes)
}
/// Opens a file containing a secret key in write mode.
#[cfg(unix)]
fn open_secret_file<P>(path: P) -> io::Result<fs::File>
where
P: AsRef<Path>,
{
use std::os::unix::fs::OpenOptionsExt;
fs::OpenOptions::new().write(true).create_new(true).mode(0o600).open(path)
}
/// Opens a file containing a secret key in write mode.
#[cfg(not(unix))]
fn open_secret_file<P>(path: P) -> Result<fs::File, io::Error>
where
P: AsRef<Path>,
{
fs::OpenOptions::new().write(true).create_new(true).open(path)
}
/// Configuration for a set of nodes.
#[derive(Clone, Debug)]
pub struct SetConfig {
/// Maximum allowed number of incoming substreams related to this set.
pub in_peers: u32,
/// Number of outgoing substreams related to this set that we're trying to maintain.
pub out_peers: u32,
/// List of reserved node addresses.
pub reserved_nodes: Vec<MultiaddrWithPeerId>,
/// Whether nodes that aren't in [`SetConfig::reserved_nodes`] are accepted or automatically
/// refused.
pub non_reserved_mode: NonReservedPeerMode,
}
impl Default for SetConfig {
fn default() -> Self {
Self {
in_peers: 25,
out_peers: 75,
reserved_nodes: Vec::new(),
non_reserved_mode: NonReservedPeerMode::Accept,
}
}
}
/// Extension to [`SetConfig`] for sets that aren't the default set.
///
/// > **Note**: As new fields might be added in the future, please consider using the `new` method
/// > and modifiers instead of creating this struct manually.
#[derive(Debug)]
pub struct NonDefaultSetConfig {
/// Name of the notifications protocols of this set. A substream on this set will be
/// considered established once this protocol is open.
///
/// > **Note**: This field isn't present for the default set, as this is handled internally
/// > by the networking code.
protocol_name: ProtocolName,
/// If the remote reports that it doesn't support the protocol indicated in the
/// `notifications_protocol` field, then each of these fallback names will be tried one by
/// one.
///
/// If a fallback is used, it will be reported in
/// `sc_network::protocol::event::Event::NotificationStreamOpened::negotiated_fallback`
fallback_names: Vec<ProtocolName>,
/// Handshake of the protocol
///
/// NOTE: Currently custom handshakes are not fully supported. See issue #5685 for more
/// details. This field is temporarily used to allow moving the hardcoded block announcement
/// protocol out of `protocol.rs`.
handshake: Option<NotificationHandshake>,
/// Maximum allowed size of single notifications.
max_notification_size: u64,
/// Base configuration.
set_config: SetConfig,
/// Notification handle.
///
/// Notification handle is created during `NonDefaultSetConfig` creation and its other half,
/// `Box<dyn NotificationService>` is given to the protocol created the config and
/// `ProtocolHandle` is given to `Notifications` when it initializes itself. This handle allows
/// `Notifications ` to communicate with the protocol directly without relaying events through
/// `sc-network.`
protocol_handle_pair: ProtocolHandlePair,
}
impl NonDefaultSetConfig {
/// Creates a new [`NonDefaultSetConfig`]. Zero slots and accepts only reserved nodes.
/// Also returns an object which allows the protocol to communicate with `Notifications`.
pub fn new(
protocol_name: ProtocolName,
fallback_names: Vec<ProtocolName>,
max_notification_size: u64,
handshake: Option<NotificationHandshake>,
set_config: SetConfig,
) -> (Self, Box<dyn NotificationService>) {
let (protocol_handle_pair, notification_service) =
notification_service(protocol_name.clone());
(
Self {
protocol_name,
max_notification_size,
fallback_names,
handshake,
set_config,
protocol_handle_pair,
},
notification_service,
)
}
/// Get reference to protocol name.
pub fn protocol_name(&self) -> &ProtocolName {
&self.protocol_name
}
/// Get reference to fallback protocol names.
pub fn fallback_names(&self) -> impl Iterator<Item = &ProtocolName> {
self.fallback_names.iter()
}
/// Get reference to handshake.
pub fn handshake(&self) -> &Option<NotificationHandshake> {
&self.handshake
}
/// Get maximum notification size.
pub fn max_notification_size(&self) -> u64 {
self.max_notification_size
}
/// Get reference to `SetConfig`.
pub fn set_config(&self) -> &SetConfig {
&self.set_config
}
/// Take `ProtocolHandlePair` from `NonDefaultSetConfig`
pub fn take_protocol_handle(self) -> ProtocolHandlePair {
self.protocol_handle_pair
}
/// Modifies the configuration to allow non-reserved nodes.
pub fn allow_non_reserved(&mut self, in_peers: u32, out_peers: u32) {
self.set_config.in_peers = in_peers;
self.set_config.out_peers = out_peers;
self.set_config.non_reserved_mode = NonReservedPeerMode::Accept;
}
/// Add a node to the list of reserved nodes.
pub fn add_reserved(&mut self, peer: MultiaddrWithPeerId) {
self.set_config.reserved_nodes.push(peer);
}
/// Add a list of protocol names used for backward compatibility.
///
/// See the explanations in [`NonDefaultSetConfig::fallback_names`].
pub fn add_fallback_names(&mut self, fallback_names: Vec<ProtocolName>) {
self.fallback_names.extend(fallback_names);
}
}
impl NotificationConfig for NonDefaultSetConfig {
fn set_config(&self) -> &SetConfig {
&self.set_config
}
/// Get reference to protocol name.
fn protocol_name(&self) -> &ProtocolName {
&self.protocol_name
}
}
/// Network service configuration.
#[derive(Clone, Debug)]
pub struct NetworkConfiguration {
/// Directory path to store network-specific configuration. None means nothing will be saved.
pub net_config_path: Option<PathBuf>,
/// Multiaddresses to listen for incoming connections.
pub listen_addresses: Vec<Multiaddr>,
/// Multiaddresses to advertise. Detected automatically if empty.
pub public_addresses: Vec<Multiaddr>,
/// List of initial node addresses
pub boot_nodes: Vec<MultiaddrWithPeerId>,
/// The node key configuration, which determines the node's network identity keypair.
pub node_key: NodeKeyConfig,
/// Configuration for the default set of nodes used for block syncing and transactions.
pub default_peers_set: SetConfig,
/// Number of substreams to reserve for full nodes for block syncing and transactions.
/// Any other slot will be dedicated to light nodes.
///
/// This value is implicitly capped to `default_set.out_peers + default_set.in_peers`.
pub default_peers_set_num_full: u32,
/// Client identifier. Sent over the wire for debugging purposes.
pub client_version: String,
/// Name of the node. Sent over the wire for debugging purposes.
pub node_name: String,
/// Configuration for the transport layer.
pub transport: TransportConfig,
/// Maximum number of peers to ask the same blocks in parallel.
pub max_parallel_downloads: u32,
/// Maximum number of blocks per request.
pub max_blocks_per_request: u32,
/// Initial syncing mode.
pub sync_mode: SyncMode,
/// True if Kademlia random discovery should be enabled.
///
/// If true, the node will automatically randomly walk the DHT in order to find new peers.
pub enable_dht_random_walk: bool,
/// Should we insert non-global addresses into the DHT?
pub allow_non_globals_in_dht: bool,
/// Require iterative Kademlia DHT queries to use disjoint paths for increased resiliency in
/// the presence of potentially adversarial nodes.
pub kademlia_disjoint_query_paths: bool,
/// Kademlia replication factor determines to how many closest peers a record is replicated to.
///
/// Discovery mechanism requires successful replication to all
/// `kademlia_replication_factor` peers to consider record successfully put.
pub kademlia_replication_factor: NonZeroUsize,
/// Enable serving block data over IPFS bitswap.
pub ipfs_server: bool,
/// Size of Yamux receive window of all substreams. `None` for the default (256kiB).
/// Any value less than 256kiB is invalid.
///
/// # Context
///
/// By design, notifications substreams on top of Yamux connections only allow up to `N` bytes
/// to be transferred at a time, where `N` is the Yamux receive window size configurable here.
/// This means, in practice, that every `N` bytes must be acknowledged by the receiver before
/// the sender can send more data. The maximum bandwidth of each notifications substream is
/// therefore `N / round_trip_time`.
///
/// It is recommended to leave this to `None`, and use a request-response protocol instead if
/// a large amount of data must be transferred. The reason why the value is configurable is
/// that some Substrate users mis-use notification protocols to send large amounts of data.
/// As such, this option isn't designed to stay and will likely get removed in the future.
///
/// Note that configuring a value here isn't a modification of the Yamux protocol, but rather
/// a modification of the way the implementation works. Different nodes with different
/// configured values remain compatible with each other.
pub yamux_window_size: Option<u32>,
/// Networking backend used for P2P communication.
pub network_backend: NetworkBackendType,
}
impl NetworkConfiguration {
/// Create new default configuration
pub fn new<SN: Into<String>, SV: Into<String>>(
node_name: SN,
client_version: SV,
node_key: NodeKeyConfig,
net_config_path: Option<PathBuf>,
) -> Self {
let default_peers_set = SetConfig::default();
Self {
net_config_path,
listen_addresses: Vec::new(),
public_addresses: Vec::new(),
boot_nodes: Vec::new(),
node_key,
default_peers_set_num_full: default_peers_set.in_peers + default_peers_set.out_peers,
default_peers_set,
client_version: client_version.into(),
node_name: node_name.into(),
transport: TransportConfig::Normal { enable_mdns: false, allow_private_ip: true },
max_parallel_downloads: 5,
max_blocks_per_request: 64,
sync_mode: SyncMode::Full,
enable_dht_random_walk: true,
allow_non_globals_in_dht: false,
kademlia_disjoint_query_paths: false,
kademlia_replication_factor: NonZeroUsize::new(DEFAULT_KADEMLIA_REPLICATION_FACTOR)
.expect("value is a constant; constant is non-zero; qed."),
yamux_window_size: None,
ipfs_server: false,
network_backend: NetworkBackendType::Libp2p,
}
}
/// Create new default configuration for localhost-only connection with random port (useful for
/// testing)
pub fn new_local() -> NetworkConfiguration {
let mut config =
NetworkConfiguration::new("test-node", "test-client", Default::default(), None);
config.listen_addresses =
vec![iter::once(multiaddr::Protocol::Ip4(Ipv4Addr::new(127, 0, 0, 1)))
.chain(iter::once(multiaddr::Protocol::Tcp(0)))
.collect()];
config.allow_non_globals_in_dht = true;
config
}
/// Create new default configuration for localhost-only connection with random port (useful for
/// testing)
pub fn new_memory() -> NetworkConfiguration {
let mut config =
NetworkConfiguration::new("test-node", "test-client", Default::default(), None);
config.listen_addresses =
vec![iter::once(multiaddr::Protocol::Ip4(Ipv4Addr::new(127, 0, 0, 1)))
.chain(iter::once(multiaddr::Protocol::Tcp(0)))
.collect()];
config.allow_non_globals_in_dht = true;
config
}
}
/// Network initialization parameters.
pub struct Params<Block: BlockT, H: ExHashT, N: NetworkBackend<Block, H>> {
/// Assigned role for our node (full, light, ...).
pub role: Role,
/// How to spawn background tasks.
pub executor: Box<dyn Fn(Pin<Box<dyn Future<Output = ()> + Send>>) + Send + Sync>,
/// Network layer configuration.
pub network_config: FullNetworkConfiguration<Block, H, N>,
/// Legacy name of the protocol to use on the wire. Should be different for each chain.
pub protocol_id: ProtocolId,
/// Genesis hash of the chain
pub genesis_hash: Block::Hash,
/// Fork ID to distinguish protocols of different hard forks. Part of the standard protocol
/// name on the wire.
pub fork_id: Option<String>,
/// Registry for recording prometheus metrics to.
pub metrics_registry: Option<Registry>,
/// Block announce protocol configuration
pub block_announce_config: N::NotificationProtocolConfig,
/// Bitswap configuration, if the server has been enabled.
pub bitswap_config: Option<N::BitswapConfig>,
/// Notification metrics.
pub notification_metrics: NotificationMetrics,
}
/// Full network configuration.
pub struct FullNetworkConfiguration<B: BlockT + 'static, H: ExHashT, N: NetworkBackend<B, H>> {
/// Installed notification protocols.
pub(crate) notification_protocols: Vec<N::NotificationProtocolConfig>,
/// List of request-response protocols that the node supports.
pub(crate) request_response_protocols: Vec<N::RequestResponseProtocolConfig>,
/// Network configuration.
pub network_config: NetworkConfiguration,
/// [`PeerStore`](crate::peer_store::PeerStore),
peer_store: Option<N::PeerStore>,
/// Handle to [`PeerStore`](crate::peer_store::PeerStore).
peer_store_handle: Arc<dyn PeerStoreProvider>,
/// Registry for recording prometheus metrics to.
pub metrics_registry: Option<Registry>,
}
impl<B: BlockT + 'static, H: ExHashT, N: NetworkBackend<B, H>> FullNetworkConfiguration<B, H, N> {
/// Create new [`FullNetworkConfiguration`].
pub fn new(network_config: &NetworkConfiguration, metrics_registry: Option<Registry>) -> Self {
let bootnodes = network_config.boot_nodes.iter().map(|bootnode| bootnode.peer_id).collect();
let peer_store = N::peer_store(bootnodes, metrics_registry.clone());
let peer_store_handle = peer_store.handle();
Self {
peer_store: Some(peer_store),
peer_store_handle,
notification_protocols: Vec::new(),
request_response_protocols: Vec::new(),
network_config: network_config.clone(),
metrics_registry,
}
}
/// Add a notification protocol.
pub fn add_notification_protocol(&mut self, config: N::NotificationProtocolConfig) {
self.notification_protocols.push(config);
}
/// Get reference to installed notification protocols.
pub fn notification_protocols(&self) -> &Vec<N::NotificationProtocolConfig> {
&self.notification_protocols
}
/// Add a request-response protocol.
pub fn add_request_response_protocol(&mut self, config: N::RequestResponseProtocolConfig) {
self.request_response_protocols.push(config);
}
/// Get handle to [`PeerStore`].
pub fn peer_store_handle(&self) -> Arc<dyn PeerStoreProvider> {
Arc::clone(&self.peer_store_handle)
}
/// Take [`PeerStore`].
///
/// `PeerStore` is created when `FullNetworkConfig` is initialized so that `PeerStoreHandle`s
/// can be passed onto notification protocols. `PeerStore` itself should be started only once
/// and since technically it's not a libp2p task, it should be started with `SpawnHandle` in
/// `builder.rs` instead of using the libp2p/litep2p executor in the networking backend. This
/// function consumes `PeerStore` and starts its event loop in the appropriate place.
pub fn take_peer_store(&mut self) -> N::PeerStore {
self.peer_store
.take()
.expect("`PeerStore` can only be taken once when it's started; qed")
}
/// Verify addresses are consistent with enabled transports.
pub fn sanity_check_addresses(&self) -> Result<(), crate::error::Error> {
ensure_addresses_consistent_with_transport(
self.network_config.listen_addresses.iter(),
&self.network_config.transport,
)?;
ensure_addresses_consistent_with_transport(
self.network_config.boot_nodes.iter().map(|x| &x.multiaddr),
&self.network_config.transport,
)?;
ensure_addresses_consistent_with_transport(
self.network_config
.default_peers_set
.reserved_nodes
.iter()
.map(|x| &x.multiaddr),
&self.network_config.transport,
)?;
for notification_protocol in &self.notification_protocols {
ensure_addresses_consistent_with_transport(
notification_protocol.set_config().reserved_nodes.iter().map(|x| &x.multiaddr),
&self.network_config.transport,
)?;
}
ensure_addresses_consistent_with_transport(
self.network_config.public_addresses.iter(),
&self.network_config.transport,
)?;
Ok(())
}
/// Check for duplicate bootnodes.
pub fn sanity_check_bootnodes(&self) -> Result<(), crate::error::Error> {
self.network_config.boot_nodes.iter().try_for_each(|bootnode| {
if let Some(other) = self
.network_config
.boot_nodes
.iter()
.filter(|o| o.multiaddr == bootnode.multiaddr)
.find(|o| o.peer_id != bootnode.peer_id)
{
Err(crate::error::Error::DuplicateBootnode {
address: bootnode.multiaddr.clone().into(),
first_id: bootnode.peer_id.into(),
second_id: other.peer_id.into(),
})
} else {
Ok(())
}
})
}
/// Collect all reserved nodes and bootnodes addresses.
pub fn known_addresses(&self) -> Vec<(PeerId, Multiaddr)> {
let mut addresses: Vec<_> = self
.network_config
.default_peers_set
.reserved_nodes
.iter()
.map(|reserved| (reserved.peer_id, reserved.multiaddr.clone()))
.chain(self.notification_protocols.iter().flat_map(|protocol| {
protocol
.set_config()
.reserved_nodes
.iter()
.map(|reserved| (reserved.peer_id, reserved.multiaddr.clone()))
}))
.chain(
self.network_config
.boot_nodes
.iter()
.map(|bootnode| (bootnode.peer_id, bootnode.multiaddr.clone())),
)
.collect();
// Remove possible duplicates.
addresses.sort();
addresses.dedup();
addresses
}
}
/// Network backend type.
#[derive(Debug, Clone)]
pub enum NetworkBackendType {
/// Use libp2p for P2P networking.
Libp2p,
/// Use litep2p for P2P networking.
Litep2p,
}
#[cfg(test)]
mod tests {
use super::*;
use tempfile::TempDir;
fn tempdir_with_prefix(prefix: &str) -> TempDir {
tempfile::Builder::new().prefix(prefix).tempdir().unwrap()
}
fn secret_bytes(kp: ed25519::Keypair) -> Vec<u8> {
kp.secret().to_bytes().into()
}
#[test]
fn test_secret_file() {
let tmp = tempdir_with_prefix("x");
std::fs::remove_dir(tmp.path()).unwrap(); // should be recreated
let file = tmp.path().join("x").to_path_buf();
let kp1 = NodeKeyConfig::Ed25519(Secret::File(file.clone())).into_keypair().unwrap();
let kp2 = NodeKeyConfig::Ed25519(Secret::File(file.clone())).into_keypair().unwrap();
assert!(file.is_file() && secret_bytes(kp1) == secret_bytes(kp2))
}
#[test]
fn test_secret_input() {
let sk = ed25519::SecretKey::generate();
let kp1 = NodeKeyConfig::Ed25519(Secret::Input(sk.clone())).into_keypair().unwrap();
let kp2 = NodeKeyConfig::Ed25519(Secret::Input(sk)).into_keypair().unwrap();
assert!(secret_bytes(kp1) == secret_bytes(kp2));
}
#[test]
fn test_secret_new() {
let kp1 = NodeKeyConfig::Ed25519(Secret::New).into_keypair().unwrap();
let kp2 = NodeKeyConfig::Ed25519(Secret::New).into_keypair().unwrap();
assert!(secret_bytes(kp1) != secret_bytes(kp2));
}
}